J
Joy Lincoln
Researcher at Medical College of Wisconsin
Publications - 79
Citations - 4987
Joy Lincoln is an academic researcher from Medical College of Wisconsin. The author has contributed to research in topics: Heart valve & Aortic valve. The author has an hindex of 29, co-authored 71 publications receiving 4278 citations. Previous affiliations of Joy Lincoln include University of Miami & Roy J. and Lucille A. Carver College of Medicine.
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Journal ArticleDOI
FGF23 induces left ventricular hypertrophy
Christian Faul,Ansel P. Amaral,Behzad N. Oskouei,Ming Chang Hu,Alexis Sloan,Tamara Isakova,Orlando M. Gutiérrez,Robier Aguillon-Prada,Joy Lincoln,Joshua M. Hare,Peter Mundel,Azorides R. Morales,Julia J. Scialla,Michael J. Fischer,Michael J. Fischer,Elsayed Z. Soliman,Jing Chen,Alan S. Go,Sylvia E. Rosas,Lisa Nessel,Raymond R. Townsend,Harold I. Feldman,Martin St. John Sutton,Akinlolu O. Ojo,Crystal A. Gadegbeku,Giovana Seno Di Marco,Stefan Reuter,Dominik Kentrup,Klaus Tiemann,Marcus Brand,Joseph A. Hill,Orson W. Moe,Makoto Kuro-o,John W. Kusek,Martin G. Keane,Myles Wolf +35 more
TL;DR: It is reported that elevated FGF23 levels are independently associated with LVH in a large, racially diverse CKD cohort and suggested that chronically elevated F GF23 levels contribute directly to high rates of LVH and mortality in individuals with CKD.
Journal ArticleDOI
Extracellular Matrix Remodeling and Organization in Developing and Diseased Aortic Valves
Robert B. Hinton,Joy Lincoln,Gail H. Deutsch,Hanna Osinska,Peter B. Manning,D. Woodrow Benson,Katherine E. Yutzey +6 more
TL;DR: These studies show that normal valve development is characterized by spatiotemporal coordination of ECM organization and VIC compartmentalization and that these developmental processes are disrupted in pediatric patients with diseased BAVs.
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Development of heart valve leaflets and supporting apparatus in chicken and mouse embryos.
TL;DR: Analysis of Tie2‐cre × ROSA26R mice and chicken embryos provides novel insights into the origins and cell lineage diversity of mature valve structures in the developing vertebrate heart.
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Hearts and bones: shared regulatory mechanisms in heart valve, cartilage, tendon, and bone development.
TL;DR: This review will focus on the regulatory hierarchies that control normal and abnormal heart valve development in parallel with other connective tissue cell types.
Journal ArticleDOI
Sox9 is required for precursor cell expansion and extracellular matrix organization during mouse heart valve development.
TL;DR: The data indicate that Sox9 is required for early and late stages of valvulogenesis and identify a potential role for Sox9 in valve disease mechanisms.